Linotype-machine.



No. 886,586. PATENTBD MAY 5, `1908.

A. DOW.

LINOTYPE MACHINE.

PLIOATION FILED JUNE z .1 A? 9 907 e slums-SHEET 1.4

lll Il No. 886,586. A PATENTED MAY 5, 190.8.

, A. DOW.

LINOTYPE MAGHINE.

APPLICATION FILBDVJUNB 29.1907.

e SHEETS-SHEET 2.-

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No. 886,586. PATENTED MAY 5, 1908.

l A. DOW.

LINOTYPE MACHINE.

APPLICATION FILED JUNE 29, 190

` 7 i 6 SHEETS-SHEET 3.

PATENTED MAY 5, 1908. A. DOW.

LINOTYPE MACHINE;

APPLIOATION HLED 'JUNE 28.1807.

8y SHEETS-SHEET 4.

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No. 886,586. PATENTED MAY 5, 1908.

A. DOW. v

LINOTYPB ISAGHINE.

PPLIOATION FILED JUNE 2 l1 A 9 907 l 6 SHEETS-SHEET 6.

NMNM. III. u

LINOTYPE -MACHINE Specification of Letters Patent.

Patented May 5, 1908.

Appli Ltion filed June 29, 1907. Serial No. 381,425.

le. il known that l,\1.1-:x.\x1 i-;n Dow. ol' .\'ew York city. State ol' New York, have invented a new and usel'ul Improvement in Linotype-Machines, oll which the l'ollowing is a specilicalion.

My invention has reference. to machines in which type metal slugs or printing bars, bearing on one edge the characters to print a line, are cast in a mold against a composed line olt matrices momentarily presented to the mold. lea-dingr machine ot' thisI char acter, known under the commercial name or trademark "Linotype", is represented as to its general organization in Letters Patent olA the United States ."\`o. 436,532.

The aim oll my invention is to provide a machine wherein a large assortment or variety of matrices may be carried in order that the operatoHnnrv produce at will type laces ol` dili'crent sizes or styles.

To this end the invention consists in anV improved manner ol constructing and mounting the magazines in which the matrices are carried, in improved means t'or releasing the selected matrices one at aV time from the respective magazines, and in improved means l'or assembling the released matrices in line.

With the exception of thel parts hereinal'ter described and specilically claimed, the machine may be ol' any ordinary or suitable construction, the cas-tine' and distributingr h mechanisms being loreign to the present 1nvention.

In the drawings,`Figure 1 represents a front elevation ot magazines and an assembling mechanism in accordance with my in- Vention. Fig. 2 is a side elevation ot' the parts represented in the upper portion of Fig. 1 viewed Jfrom the right. Fig. 3 is a vertical section from front. to rear on the line 3 3, Fig. 1 Fig. 4 is a frontelevation of a pair of magazines with their escapements for releasing'the magazines. Fig. 5 is an edge view .ofthe same.. Fig. 6 is a top plan View of the same. Fig. T is avertical section through the lower end of4 a pair of magazines with their escapeinentsv and the attendant parts for receiving the released matrices. Fig. S is a vertical section through the lower end of the magazine with the escapement retracted for releasing the matrix. Fig. 9 is a cross-section on the line fle-4), Fig. S. Fig. l() is a l'ront view otl a por- 55 j tion otthe upper end ol' the magazine and county oll New iork, and-v its support onY an enlarged scale. Fig. l1 is a. vertical cross-section on the line 11-11 of the preceding ligure. Fig. l2 is a rear eleva rion ol' the parts shown in the preceding lig- 60 ure. Fig. lll is a. top viewol' a pair oll magazines, one ol' them being shown in horizontal section Fig. l-lL is a bottom plan view ol' a series ol' magazines, their escapements and the escapement actuating devices. Fig. 15 65 is a vertical section illustrating the key-board mechanism and connected parts on a large scale Fig. lo is a vertical section from Jt'ront to rear through the keyboard 011 the correspondingly numbered line of Figs. 1 and 17. Fig. 17 is a rear elevation olY the parts shown in the. preceding ligure. Fig. 1S is a cross-section through the keyboard roll with the adjacent reeds in side elevation. Fig. 19 is a. vertical section illustrating the action of 011e ot the finger-keys and adjacent parts.A Fig. 2() is ay vertical section showing details hereinafter described. Fig. 21 is a vertical section illustrating the manner in which the slides and rods ot' Fig. 18 are raised clear of their guides to permit ltheir disconnection.

Referring to the drawings, A represents a rigid main-frame which may be of the ornr shown or of any other form and construction adapted to sustain the operative parts.

B, B', are the magazines arranged in pairs and suspended vertically in the main-frame to sustain or carry the matrices C, which may pe of the form shown or of any other suitable orin. Y

D, D', are the escapements for releasing the matrices one at a time from the respective magazines.

E, E', are the horizontally reciprocating bars for actuating the escapements.

F a stationary race-frame, so-called, containing a series of vertical channels through which the released matrices descend.

G is an inclined continuously traveling apron onwhich the released matrices are received, and by which they are carried downward to the liront of the machine.

H is a vertical face-plate having aseries ot upright channels to which the matrices are delivered by the apron G through which they 105 descend. t

I is an inclined assembler belt upon which the matrices are received from the face-plate,

and by which they are carried downward and delivered successively into the assembler J.

Magazines.-'l`he magazines B, B', are arranged in pairs, those of eachpair being 5 screwed or otherwise secured at their upper and lower ends to the intermediate horizontal bars l) and b. The upper bars b are made of a hook-form in cross-section, and are'engaged over horizontal bars a in the main-frame, vas

shown in Figs. 2, 3, 11, etc. In this manner, each pair of magazines is suspended from the upper end so that the lower ends may be swung forward and backward to a limited extent to cause the action or non-action ofthe matrixreleasing devices, 'as hereinafter described. Each magazine consists of two parallel plates b3 and l)4 secured` to intermediate spacing pieces and provided in their opposing vfaces with vertical grooves or channels b5 to receive and guide the edges of the matrices C, which pass through the magazines-from the upper to the lower ends. The delivery of the matrices into the magazines will'be effected by a distributing mechanism of any suitable character, such mechanism being foreign to the present invention. Each magazine .has its rear plate b4 terminated at the lower end above the lower end of the companion'plate b3, so that when a matrix has passed below the end of the rear plate, it may be carried backward in an edgewise `direction, as shown in the left-hand magazine of Fig. 7, and the right-handmagazine ofFig. 11. For thepurpose of receiving and guiding the matrices l' 35 thus moved to the rear, each magazine is provided with a fixed plate b6 set outward or rearward beyond the body 'of the magazine and containing vertical channels which register with those in the magazine. y

40 Escape/ment mechanism. -For the purpose of releasing the matrices one at a time, I secure outside of and adjacent to each magazine-plate' b3, pendent escapements D, one for each channel in the magazine. These escapements have their upper ends seated in grooves in thebars lg on horizontal pivots d2, so that their lower ends may swing to and from the magazine. Each escapement is formed at the lower end with a lip or shoulder cl3 adapted to pass beneath the lowermost matrix-in the corresponding channel, thereby preventing its escape and sustaining the column of matrices above. The escapements are held normally in engagement and returned to their normal positions by means of springs d5 seated on the bars t and bearing against the escapements, as shown in Figs. 7, 11, &c.

The matrices in a given column Vare released one at a4 time by momentarily moving the escapement backward to the position shown in Fig. 8, and also on the right-hand in Fig. 1l, until the lip or shoulder da is clear of the matrix, whereupon the entire column of matrices will descend by gravity.

'As soon as the lowermost matrix stands opposite or in font of the escapement shoulder d3, the escapement is released and permitted to return to its original osition. In so doi it acts onv the vertica edge ofthe release matrix, and carries the same rearward to a position occupied by the lowermost matrix in Fig. 11. The matrix thus carried to the'rear is permittedito continue its downward, course out of thegmagazin'e, being guided by the plate b6,-but 'the succeed- 75 ing matrix will strike upon and be arrested bythe lip da, which assumes its original position before the matrix'contacts therewith.

y In other words, the retraction of the escapement D effects the release of the bottom ma- 30 trix, while the return of the escapement carries the released matrix edgewise out of line with those above, while permittin it toy con'- tinue its downward course.' T e escapement in every case returns to its operatlve position in time to preventthe escape of the second matrix.

It is to be observed that in my mechanism the escapementshoulderlor lip'd3 is the sole means for controlling the escape of the matrices one at a time from the lower end of the column in the magazine'. Itis also-tobeobserved that when the escapement shoulder is withdrawn, the lower end of the matrix 'channel is open and unobstructed so that the 95 matrices may descend in a straight course out of the magazine. Time is an essential factor in the operation of the device.

The springs are made of such strength, and

ithe parts so arranged,vthat the shoulder is lwithdrawn just Along enough to release the lowermost matrix andpermit it to vdescend far enough to prevent the rengagement of the shoulder thereunder, after whichv the shoulder is instantly restored to its first position in order to stand beneath and arrest the next matrix as the column continues its descent. Althou h the shoulder in returning to its originally and normal position acts against the first matrix and moves the same horizontally, it is to be observed that this action has nothing whatever to do with; the release of the first matrix, ^At the time this action occurs, the first matrix has been alread released. l

I be ieve the present mechanism to be the first in which an escapement engagin and supporting a matrix at the lower en of a co umn, has been adapted to serve as the sole means of releasing the matrices one at a time, and the first instance in which a su porting l shoulder, after being withdrawn om beneath a column of matrices, has been returned in time to arrest the second matrix while` permitting the first to escape. A wide distinction is to be drawn between this forln of escapement, in which a single detaining shoulder releases the matrices successively at the same time holding in check the succeeding matrices, and those rotary and vibratory devices which are provided with two or more alternately or successively acting shoulders to engage the successive matrlces.

As the pivot of theescapement D is out of line with the matrices, the spring-supported escapement. `vields slightly under the impact oll the descending matrices. In consequence ol' this action, it softens orcushions the blow so that the deformation ol matrices and the escapement is prevented.

For the purpose. of operating the escapements to release the selected matrices, I may employ devices of any suitable character connected with linger-keys or their equivalent,

but l prefer to employ the mechanism shown in Figs. 7, 8,9, 10, 1 l, &c., consisting of horizontally reciprocating bars E, E', guided in the main-frame. and provided with upwardly extendingr lips c arranged to engage studs d* on the sides of the escapernents D.

I commonly use in the machine two, three, or more pairs of magazines, and I provide each actuating bar with a number of lips adapted to operate the corresponding escapements of several magazines. The bars have a fixed field of movement, and if all the magazines were permittedto remain in operative position7 'each bar would cause the simultaneous movement of several escapements and the consequent discharge of several matrices. It is to avoid this action that the magazines are suspended to swing laterally as before described. t

When matrices are to be drawn from a given pair of magazines, they are swung to the position shown in full lines in Figs. 7 and 11, so that their escapements will be acted upon by the corresponding bar E or E. In the meantime, the other magazines, from which matrices are -not demanded at the moment, are swung to the left, as indicated by the dotted lines in Fig. 11, so that their esca ements arel carried beyond the'teld of the lips of the `actuating bars. .Hence it is that a bar, serving to actuate the escapements of several magazines, is limited in its action to one escapement at a time.

In order to admit of the parts being assembled in a limited space, I arrange the bars E, E in pairs, the two bars of each pair lying side by side in suitable guides. One bar has its lips arranged to actua-te the escapements of the forward magazine in each pair, while the compamon bar is arranged to operate the escapements of therear maga-` zines. ThatI thismay be done, the respective esca ements have their studs extended to the rig t and left, as shown in the drawings.

Keyboard mcchan'ism..-l recommend as tliebest mechanism for operating the bars E, E, the arrangement shown in Figs. 3, 15, 16, 17, 1S, &c., in which K represents vertical reeds or slides guided inthe mainframe, and having their upper endsbent or oiiset, as shown at r, and arranged to pass the inclined portions beyond the studs r may be given a pause or dwell at both ends of t len' movement.

the` bars E either or Thus they may be caused to hold the escapcmentsbackward out ol engagement lor anyrequired length of time. The reeds K are jointed at their lower' ends to levers li; which are centrally pivoted in the main-frame. and jointed at .their forward ends vto rods M, which are also guided in the main-frame and extended downward to vertical slides N, which are also guided in the frame and urged constantly downward by springs O. The series of slides N standv in a common line and are each provided with a lip n, see Figs. 3 and 5.

P, is a horizontal constantly rotating roll, vjournaled in the `main-frame and provided with a series of longitudinal teeth to engage the lips n'. Each of the slides E passes at -its lower end through a horizontally guided rod o urged forward-by spiral springs o', the tendency of these parts being to move the lower ends of the slides forward so that the lips a will be engaged by the teeth of the roll. Normally, however, the engagement is prevented by a finger-key Q pivoted at its middle in the main-frame and having its rear end shouldered, as shown in Figs. 3. and 15, to engage the rod 0 and hold the same back against the pressure of spring o. dren the parts are in this position, the roll revolves without e'ti'ect upon the other parts. Yhen, however, the forward end of the finger-key is depressed, the shoulder at its rear end is disengaged from the rod 0, and the' latter permitted to slide forward under the iniluence of a spring carrying with it the lower end of the slide In this manner, the lip n on the. slide is brougth into thev path of one of the teeth on the roll, as shown in Figs. 16 and 1S, whereupon the roll acts to lift the slide N, ,move the escapement-actuating slide E.

Each slide N has in one edge at the-lower end a notch or depression '11, in position to receive, when the slide moves forward, a horizontal fixed bar a3 in the main-tranne. It will be observed that this bar is held in place by screws passing through slots in the trame. This admits ofthe barbeing raised or lowered so that the slides may be' tripped. out of engagement with the actuating roll sooner or later. This provision is advantageous in that it permits compensation for the wear of the parts and also in that it permits the machine to be adjusted as peculiaritiesin the touch of the different operators may demand when the machine is to 1oe and through the intermediate parts,-

' by the action of the roll I), the

As the slide is lifted lower liu-lined wall of the notch rides agaiustthc bar e", ine

driven at high speed.

leifect being to gradually more the bar edge wise ,to the rear, in the manner shown in Fig. 15, until the lip 'n 1s disengaged, whereupon the slide is instantly pulled down Iward toits original position by the spring O.

As the slide is moved rearward by the bar c, it carries with it the guide-rod o far enough to permit the end of the finger-key Q to fall to its original position, as shown in Figs. 3,16 and 19, whereby the slide is held.

out of engagement until the key is again actuated. In order to insurethe downward movement of the key at itsrear end, the spring Q 'may be connected therewith. It will, of course, be understood that the various nger-keys represent the respective characters and spaces, keys equal the channels in one pair of mag? azmes.

The keys are provided, as usual, at the forward end with buttons bearing respective characters, and whenever a key is actuated, a matrix of a corresponding character or a corresponding space is delivered from one of the two magazines which are in operative position. In order to deliver the required characters from any pair of magazines, it is only necessary to swing that pair to the operative position and to swing the others away from their operative positions, so as to carry their escapements beyond the field of the actuating devices, the one series of fingerkeys serving for all of the magazines.

The actuating roll P may be provided with any suitable number of teeth of any suitable form in cross-section, and they may be eX- tended parallel with the axis of the roll, er arranged spirally around the same, as indicated in the drawing.. The spiral arrangenient is preferred for the reason that it prevents the engagement of two bars on one tooth in the event of their being released in rapid succession..

It is obvious that two, three or more of the slides N nia-y be engaged at one time with successive teeth on the roll. In such event, although the slides are in motion at one time, they will cause the release of matrices successively and in the order in which the keys are actuated, so that transpositions in the composed line are prevented. that the form and relation of the key-board members may be widely modified within the range of mechanical skill and without chang-l and that in number, thev It is manifestV they slide. Each rod M has its upper end notched to admit the end of the lever L, and is heidi in engagement therewith by the fixed guide 11,4. In like manner, the lever L is seated at the opposite end in a notch in the reeds K, which are held in engagement by the guide k2. By lifting the slides N above their normal operative positions, the various joints are carried beyond therespective guides n, n4 and k2, so that the parts may be readily slipped apart.

Assembling mechanism.-For the purpose of assembling in a common'line the matrices released from the magazines, I provide the race-frame F, apron G and the face-plate H. The race-frame F, located below the magazines, contains a series of vertical channels or passagesf corresponding in number and location to the columns o matrices in the respective vmagazinestheir purpose being to receive the released matrices and direct them downward upon the carrier apron G. The

`passages f are of such width as to maintain the matrices on edge, or in other words, to prevent them from turning over on their side faces, and they are curved forward and downward in the direction lin which the apron travels, so that each matrix, descending by gravity, is gradually turned forward at the lowei end, so that its longitudinal edge bears upon the apron, as shown in Fig. 7. The apron, which is constantly driven in the direction indicated by the arrow, stands at' an inclination, as shown, and serves to carry the matrices successively downward toward the front of the machine. The apron, as

shown, passes over two horizontal sustaining rolls g and g, and as the matrices pass downward from the forward end of the apron, they are caused to again assume ,a vertical` position and pass downward through the channels of the face-plate H' to the surface ofthe assembling belt I. This belt lies transversely of the machine, or in other Words, its course of travel is at right angles to that of the apron G, so that the matrices received upon the belt rest upon their side faces and are carried downward endwise one after another into the slotted assembler J. As they enter the assembler they are acted upon successively on their side faces by the rotary starwheel R, by which they are forced laterally into the assembler and assembled side by side in a common line, this part ofthe action being essentially ithe same as the assemblage of the matrices in the Well-known linotype machine of the present day.

The race-frame F may be constructed in any suitable manner provided only it contains'the narrow'passages or channels extending downward from the points at which the matrices are delivered from the magazines, and thence forward above the conveyer apron, and is adapted to sustain the traveling matrices on edge. I prefer, however, to construct this race-frame F as shown in the drawings, of a series of vertical plates f', separated by intermediate metal frames or platesfz, having such marginal form as to afford the passages f between them. The entire seriesof plates may be connected together by tie-rods extended horizontally through them, or they may be connected in any other suitable manner.

As it mayl sometimes happen that matrices will be arrested in their course to the face-plate, it is desirable to give free access to the throats or passages f, and for this purpose l mount the roll g, which sustains'the rearlend of the apron G, in a frame g3, arranged to swing about the axis of the forward roll g. This arrangement admits of the frame and apron being swung downward at will from the operative position to the position shown by dotted lines in'Fig. 3, thus exposing the upper surface of the apron and the lower ends of the throats The frame g3 may be sustained in its operative position by any suitable means, for example, by the pivoted buttons or latches g4;

General operatio'n.-The operation of the meehanismas a whole is as follows. The matrices are arranged in columns in the respective magazines, and the lowermost matrix of each column is sustained by one of the escapements D or DC' The pair of magazines from which matrices are to be drawn are swung to the Tight so as to bring their esoapements D within the path of the lips on the bars E, While the remaining magazines are swung to the left so as to carry their escapements beyond the ath of the matrices. The operator now manipulates the keys in the order in which their characters and intermediate spaces are to appear in the line. As each key is depressed at the front, its rear end is raised out of engagement with the rod o which is thereby released so that it may be thrown forward by the spring o. The eHect of this is to carry the lower end of the slide N forward so as to bring its lip n into the path of one of the teeth on a constantly turning roll P. The roll immediatel f lifts the slide N against the stress ofthe spring O, and the slide in turn lifts the connecting rod M which, through the lever L, actuates the reed K, which in turn actuates the escapement D, disengaging it from the lowermost matrix in the column. The column of matrices .immediately descends. The lowermost mat-rix inpassing the escapement, is acted upon and carried edgewise to the rear,

while continuing its downward course, the' escapemcnt assuming its original position in time to encounter and arrest the next succeeding matrix. The released matrix continues its vcourse downward through the throat o1 channelfto the apron G, and lying edgewisc thereon is carried forward and delivered iu .a vertical position, downward I through a channel in the face -plate H, l whence it is delivered on its side to the belt f I, and finally delivered from the latter in front of the star-wheel into the assembler J. This action is repeated as the successive keys are actuated, and the matrices thus 'assembled in the re uired order in a com act line in the assemb er. From the assem ler, the line will be transferred by any ordinary or appropriate mechanis'm to the casting mechanism, and returned through a distributer to the upper end of the magazines, as is usual inmachines of this class.

Remo/cable magazines-wa machine constructed on my plan may contain a sufficient number of magazines and a sufficient assortment of matrices to meet all ordinary requirements, but in order to permit a change in the assortment of matrices, it is only necessary to remove one pair of magazines and replace them by another containing the required matrices. As the matrices are suspended by the hook-shaped bars at their upper ends, and as their escapements stand normally out of line with the projections on the bars E, any pair of magazines may be withdrawn edgewise from the machine at will, in the manner indicated in Fig. 1, and after being thus removed, they may be replaced by another pair of magazines thrust edgewise' into the machine. The magazines may be made of any desired size and with any desired number of channels, but I commonly construct them so that the upper. case characters will be carried in one magazine, and the corresponding lower case-characters in the other,*a pair of magazines being thus adapted to receive one complete 'font of matrices. Any suitable means may be employed for swinging the lower ends of the magazines to and from their operative positions, and for holding them in the inactlve positions. Simple means for the purpose it a rocking bar mounted in the frame adjacent to each pair of magazines, as shown at T in Figs. 2, 3, 7, &c.

It is obvious that the constructions above described may be used not only in machines for casting slugs or linotypes, but in typographic machines in general such, for eX- ample, as machines for casting logotypes or vsingle type in the order of use.

So far as the carrying of the escapements of the magazine beyond the eld of their actuating devices by the movement ofthe magazine is concerned, it is of course immaterial whether the magazines are coupled together in pairs or not. The' claims herein referring to the magazines movableffor this purpose are intended to apply to both single and double magazines.

Having described' my invention, I claim as my invention and desireto secure by Letters Patent:-

l. In a typographie machine, a main frame and mechanism therein for actuating escapements, in combination with two parallel connected magazines provided with esoapements mounted in the trame and remov-- able jointly therefrom at will.

2. In a typographie machine, 'two v parallel magazines 1 permanently "eennectedY,"V 'and a sustaining'frame in. which 'said 'magazines are mounted and from whichthey arev jointly removable atwill. 3. In a typographie machine, the combination of a main-frame, two parallel magazines rigidly united and sustained in `the frame by horizontal supports adapted to permit the magazines to be removed jointly in an edgewise directionat will.

4. In a typographie machine, a mainl frame, escapement-actuating devices mounted therein, in combination with a magazine 2Ot capement devices, said magazine movable at mounted in the frame and provided with esone Mend only beyond the path of the actuating devices; whereby the delivery of matrices may be prevented without disturbing 'the receiving end of the inagazine. l 5. In a typographie machine, a pendent swinging magazine provided with escapements, in combination with transversely moving means for actuating the escapements; whereby the delivery of matrices may'u'befprevented without changing the movement of the actuating devices, 6; Ina typographie machine, a magazine throughwhich matrices descend by gravity,

in combination with an escapement having a shoulder to engage and sustain the end m atrix and the coplumnA above it, means for withdrawingtlieescapement to release the 8. An upright magazine adapted to carry va column oi matrices, and an escapement D acting as the sole means forcontrolling the ,delivery oi the matrices, saidfescapement adapted to engage the lowermost matrix of the column, in combination with a spring *f tendingy to retain the escapementr in "engagement and means for disengaging the escapement at will andfpermitting' its immediate return in time to engage beneath the second matrix. f

9. .natypographi'c machine, a magazine having an open lower end to permit the vertical escape of the matrices, an escapement D adapted to engage only beneath the Vend matrix in the magazine, a spring to vhold the vescapement in its normal position,

and a reciprocating bar E to actuate the escapements.

10. In a typographie, machine, the niagazine B, the movable escapement D to engage l the endmatrix, a spring acting to return the escapement, an actuating device having a fixed path of movement and adapted to disengage the escapement from the matrix, said magazine movable laterally from its operative position; whereby the action of the escapement is prevented although the actuating vdevice may be moved,

11. In a typographie machine, aseries of magazines'each provided with escapements, in combination with actuating devices each -extended past two or more magazines and adapted to operate corresponding escapements simultaneously, said magazines being independently movable at the delivery end to carry the escapenients beyond the field of the operating devices; whereby the escapements of any magazine may be thrown into or out of action by moving said magazine andwithout disturbing the others.

12. In a typographie machine, a series of laterally movable magazines each provided with escapeinents, in combination with devices each adapted to actuate the escapements of two or more magazines;` `whereby theescapements of either magazine may be brought into action to the exclusion of the others.` Y

13. In a typographie machine, an upright channeledmagazine, having its lower end oiiset on one side to permit edgewise movement of an outgoing, matrix, incombinat'ion with an escapement adapted to engage beneaththe end matrix, and' also'adapted to act edgewise against the matrix subsequent to its release; wherebythe escapement is .permitted to resume its normal position to vengage the second matrix without arresting the first. d

14. Av magazine consisting of the long plate b3, the opposedplate b4 terminated at a higher level, and the .groovediplate be, in combinationwith escapements adapted to vpass beneath the lower end oi the magazine,

and means'for actuating said escapements.

y 15. In a typographie machine,.two magav zines B, B', and an intermediate connecting,

member b, in combination with afixed support c engaging said member.

16. In combination with., the magazines` 15,33 and the intermediate connecting member b, the horizontal support a engaging said member and adapted' to permit the removal of the magazines inan edgewise direction.

17'. In combination with themagazines B, B and a connecting member l), a support a engaging said member andadapted to perslide is given a dwell see zines.

5.' in combination with a magazine and an escapement for releasing matrices therefrom, an escapement-actuating bar E and a slide-actuating reed l having an oblique or ol'set portion to actuatethe slide. y'

19. In combination with the magazine and an esc'apcment for releasing' matrices there` om, an escapement-actuating bar E, a slide-actuating reed K having an inclined or offset portieri, and means for reciprocating' the reed and carrying the inclined portion beyond its operating position; whereby the during the continued movement of the reed.

20. In a typographie machinain combination with an escapement-actuating device E, a slide-operating reed K having an inclined portion, a continuously rotating dee lice, and means for imparting motion rnomentarily from said device in. one direction to the reed, and aspring for returning the reed to its normal position.

2l. I bination with a series of escapements D, D', having studs d4, reciprocating' bars E arranged in pairs to actuate the respective escapements. l

22. In a typographie machine and in conrbination with a magazine arranged to deliver the vmatrices endwise, guiding throats f adapted to receive the matrices and maintain-them on edge, and a carrier apron G.

23. In a typographie machine and in combination with an inclinedcarrier apron G, a seriesI of matrix-guiding throats extended downward and forward and adapted to deliver the matrices to the apron and maintain them edgewise thereon.

24. In a typographie machine, a series of upright magazines adapted to deliver the matrices from their lower c, .ids in an upright position, an inclined carrier apron and inter` mediate throats extending ownward and forward, said throats adapted to receive the matrices from the magazines and turn themy forward on edge upon the apron.

25. In a typographie machine, the combination of a series of magazines arranged to deliver matrices in a downward direction, a series of guiding throats adapted to receive the matrices and hold them from turninor upon their sides, an inclined apron arranged to receive the matrices on edge, and a vertically channeled face-plate arranged to re ceive the matrices in an upright position from the apron.

26. The combination of magazines -arranged to deliver matrices in an upright position,` throats which receive the matrices and hold them from turning upon their sides, an inclined carrier apron whereon the matrices ,sse

n a typographie machine and in corn- I are received edgewise, 'a vertically channeled face-plate which receives the matrices in 'upl right positions from the apron, and a transf verse assembler-belt .I

hold them normally out of engagement', and

Va fixed member acting on the' slides as they descend, the jconveyer a continuously driven toothedarranged to receive I the matrices on their sides .from the face` the surface of the conveyer and to the. interior passages ofthe are .moved endwise to disengagethem from -v the roll.

29. In a Vtypographie machine, in combi-l nation with the toothed slides-N having inclined surfaces n', the stationary trip c3, the continuously driven toothed roll P to move the slides endwise in one direction, the spring O tending to move them in the reverse direction, spring-actuated rods o tending to move the slides into engagement with the roll, land finger-keys normally engaging theyrods hold the slides out of engagement.

30. nation withthe toothed slides N and the continuously driven' toothed roll P tomove the slides endwise in one direction, tending to move them in thereverse direction, means for throwing the .slides into engagement with the roll, a tripbar a3 to disengage the slides from theroll, and means for changing the position of said bar; where` by1 the disengagement of oto` springs O` the bars from thev roh` may be effected sooner or later, as required. K

31. In a keyboard mechanism substantially as described, toothed escapement operating slides in combination with a continue ously driven roll having spirally arranged teeth to actuate the slides 5 whereby the simultaneous operation of two escapements is prevented.

In testimony whereof I hereunto set'my hand this twentieth day of June, 1907, in the presence of two `attesting witnesses.

" ALEXANDER DOW.

Witnesses G. W. BIRD, FRANK C. JONES. 

